dumpster
is an cycle-detecting garbage collector for Rust.
It detects unreachable allocations and automatically frees them.
In short, dumpster
offers a great mix of usability, performance, and flexibility.
dumpster
's API is a drop-in replacement forstd
's reference-counted shared allocations (Rc
andArc
).- It's very performant and has builtin implementations of both thread-local and concurrent garbage collection.
- There are no restrictions on the reference structure within a garbage-collected allocation (references may point in any way you like).
- It's trivial to make a custom type Trace using the provided derive macros.
- You can even store
?Sized
data in a garbage-collected pointer!
dumpster
is unlike most tracing garbage collectors.
Other GCs keep track of a set of roots, which can then be used to perform a sweep and find out
which allocations are reachable and which are not.
Instead, dumpster
extends reference-counted garbage collection (such as std::rc::Rc
) with a
cycle-detection algorithm, enabling it to effectively clean up self-referential data structures.
For a deeper dive, check out this blog post.
dumpster
actually contains two garbage collector implementations: one thread-local, non-Send
garbage collector in the module unsync
, and one thread-safe garbage collector in the module
sync
.
These garbage collectors can be safely mixed and matched.
This library also comes with a derive macro for creating custom Trace types.
use dumpster::{Trace, unsync::Gc};
#[derive(Trace)]
struct Foo {
ptr: RefCell<Option<Gc<Foo>>>,
}
// Create a new garbage-collected Foo.
let foo = Gc::new(Foo {
ptr: RefCell::new(None),
});
// Insert a circular reference inside of the foo.
*foo.ptr.borrow_mut() = Some(foo.clone());
// Render the foo inaccessible.
// This may trigger a collection, but it's not guaranteed.
// If we had used `Rc` instead of `Gc`, this would have caused a memory leak.
drop(foo);
// Trigger a collection.
// This isn't necessary, but it guarantees that `foo` will be collected immediately (instead of
// later).
dumpster::unsync::collect();
To install, simply add dumpster
as a dependency to your project.
[dependencies]
dumpster = "1.0.0"
dumpster
has two optional features: derive
and coerce-unsized
.
derive
is enabled by default.
It enables the derive macro for Trace
, which makes it easy for users to implement their
own Trace types.
use dumpster::{unsync::Gc, Trace};
use std::cell::RefCell;
#[derive(Trace)] // no manual implementation required
struct Foo(RefCell<Option<Gc<Foo>>>);
let my_foo = Gc::new(Foo(RefCell::new(None)));
*my_foo.0.borrow_mut() = Some(my_foo.clone());
drop(my_foo); // my_foo will be automatically cleaned up
coerce-unsized
is disabled by default.
This enables the implementation of CoerceUnsized
for each garbage collector,
making it possible to use Gc
with !Sized
types conveniently.
use dumpster::unsync::Gc;
// this only works with "coerce-unsized" enabled while compiling on nightly Rust
let gc1: Gc<[u8]> = Gc::new([1, 2, 3]);
To use coerce-unsized
, edit your installation to Cargo.toml
to include the feature.
[dependencies]
dumpster = { version = "1.0.0", features = ["coerce-unsized"]}
This code is licensed under the Mozilla Public License, version 2.0. For more information, refer to LICENSE.md.